Value indexing mechanism



Oct. 9, 1951 c, R 2,570,456

VALVE INDEXING MECHANISM Filed May 6, 1947 3 SheetS-Sheet 1 FIG' I CLINTON P. KA RR Zhmentor Oct. 9, 1.951 c. P. KARR 2,570,455

VALVE INDEXING MECHANISM Filed May 6, 1947 3 Sheets-Sheet 2 |4 & 5e CLINTON P. KARR Zinvenfor I 'z' 52 6| 8n d Oct. 9, 1951 Q K 2,570,456

VALVE INDEXINGMECHANISM Filed May 6, 1947 5 Sheets-Sheet 5 cum'ou P. KARR Inventor v 8,, WI L/L attorney Patented Oct. 9 1951 VALUEINDEXING MECHANISM Clinton P. Kart, Seattle, Wash., assignor to Friden Calculating Machine 00., Inc., a corporation of California Application May 6, 1947, Serial No. 746,292

My invention relates to improvements in a value index mechanism and, more particularly, to the provision in a calculating machine of mechanism for mechanicall transferring back into the selector mechanism a product or the like, arrived at in the machine during a previous calculation.

In the operation of a calculatin machine, the operator introduces factors into the machine through the manipulation of the keyboard and, in the course of operation of the actuating' means, produces a numerical figure visible in a row of accumulator dials. It often occurs'that the operator may wish to transfer that figure back into the selector mechanism for a further calculation involving that figure and another factor.

For example, the visible figure may represent the volume of sales of an'item during a given period of time, which volume th operator desires to reduce by a given percentage, as in calculating gross profit on the volume. this, the operator must read the total indicated by the accumulator dials and then manually transfer that figure into the keyboard by depressing the indicated keys. Such an operation is subject to human error, such as transposition of numerals and other mistakes and also involves time.

It is, therefore, an important object of my invention to transfer such an indicated figure to the selector elements of the calculating machine in a mechanical operation associated with the operation of clearing the accumulator dials, as when the machine is being made ready for further calculating, but without requiring the manual manipulation of the keyboard as in an operator-conducted transfer operation.

Another and important object of the invention is to provide mechanism to set the keyboard of a calculating machine with a factor, indicated by appropriate accumulator means as the result of a previous calculation, while at the same time the accumulator means is being cleared.

Ordinarily, to do I 12 Claims. (Cl. 23573) is particularly adaptable to machines of the type wherein there are gears mounted on a splined shaft and movable b op'erator manipulation of selecting arms, through the instrumentality of the keyboard to desired positions for engagement by tooth elements carried by rotary actuator drums. In such a machine, when a factor has been set by the placement of the movable gears, and they are turned by the actuator drums, the splined shaft revolves and, among other things, operates a series of accumulator dials to indicate a sum. Such accumulator dials are cleared at A further object of the invention is the provision of keyboard setting mechanism, operable upon the clearing of the accumulator dials, which is simple to construct and install and is easy to operate smoothly and efficiently.

The foregoing objects and others ancillary thereto, I prefer to accomplish as follows:

According to a preferred embodiment of my invention, I provide within the case of a calculator machine, mechanism which will operate transfer a figure thereon, when desired, into the selector elements of the machine. This invention the end of a calculation by mechanism that may be manually or mechanically operated. In apparatus embodying the present invention, the clearing of the dials, i. e., returning of the dials to zero setting, is utilized to move or drive the selecting arms to positions corresponding to the value standing in the dials prior to the clearing operation. In accordance with the invention, such positioning of the selecting arms by clearin of the dials is effected under control of a selectively operable coupling mechanism interposed in a drive train extending from the dials to the selector arms. Such movement of the selector arms may be independent of the keys of the keyboard and such is preferable in most cases. With such a factor introduced into the machine, the operator may proceed to manually introduce a multiplier or a denominator or other factor into the machine and then proceed with a further calculation. Obviously, it is advantageous to effect the operation of the machine in this way to eliminate, to a certain degree, the factor of human error in making the transfer and, further, to do so more rapidly than is normally possible otherwise.

The novel features that I consider characteristic of my invention are set forth with particularity in the appended claims. The invention itself, however, both as to its organization and its method of operation, together with additional objects and advantages thereof, will best be understood from the following description of a specific embodiment when read in connection with the accompanying drawings, in which:

Figfil is a schematic perspective view of a portion of a calculating machine illustrating the upon the clearing of the accumulator dials to manner in which my invention is incorporated;

Fig. 2 is an enlarged exploded perspective view of my selecting arm re-set mechanism;

Fig. 3 is an enlarged view of the re-set mechanism in the normal position with the gear shaft .and selecting arms shown in section;

Fig. 4 is assimilar view to Fig. 3, showing the ie-set mechanism engaged with the gear shaft and indicating the mechanism whereby the reset gear and pinions are shifted;

Fig. 5 is a side view of the selecting arm reset mechanism as taken on the plate of line 55 of Fig. 4;

Figs. 6 and 7 are views in elevation taken from the left of Fig. 1' of the key operated draw-link and the latch-bar retaining means, respectively;

Fig. 8 is a cross-sectional view taken on line 8-8 of Fig. 1;

Fig. 9 shows in plan view the rack and pinion couple between the accumulator shaft and the reset bar;

Fig. 10 is an enlarged elevational view of. the add-subtract gears and pinions with portions shown in section for convenience of. illustration;

Fig. 11 is a cross sectional view taken on line ll--ll of Fig. 4.

In a calculating machine of the type to which my invention is particularly applicable, there is usually provided across themachine suitable support means for various shafts, and arms and keys. Such are the rear support. bar. 19 and the front support and guide bar l2, which at their endsare maintained in theframe of the machine. tween bars Ill and. I2 is rotatably mounted the gear. shaft I4. which has. an. extension. l5 to the rear of the bar [0. Shaft 14, I5, is square and has slidably mounted. thereon the transfer or selector gears I6, H, which are moved longitudinally of the shaft by means. of forks l8, 19, respectively, that. are reciprocably moved. Fig. 8v shows the engagement of fork l9 in the groove of gear l'l.

Fork I8 is on the. rear end. of selecting arm 28 and. fork l a is similarly positioned on the selecting arm 2|. Arms 20 and 2| are juxtapositioned in the machine and slide in suitable grooves 22 in bar I2. Arms. 2lland 2| are notched, as at 2.4, and selecting keys 2B, 21, have cross pin 28. which engage the sloping edges ofv notch 24, and when depressed, produce forward movement of a selecting arm. This. results in a movement of a gear such as IE or l1- on the shaft 14. to a selected position. The selecting arm 20 is movable from its home position to any one offive operative positions, and the selector arm 2 l' is movable from its home position to any one of four positions.

Alongside the gear shaft 1 4 is an actuator drum having differential actuator teeth thereon. The teeth are in two series, one series comprising nine teeth 32-, the tooth 32 shown uppermost in Figure 1 being the shortest, while the three succeeding teeth are each longer by equalincre-- ments than the preceding teeth, the remaining teeth 32 all being of the-same length as the fourth tooth 32. The other series comprises five teeth 32% respectively aligned with the last fivete'eth 32 of the. first tooth. series, the teeth 32 being all of progressively increasing length, clockwise around the drum- 30. in Figure 1. The arrangement ofteeth 32 and 32 on the drum 30 and the cooperation of the teeth with selector gears l1 and- Iii is described in more detail in the patent to Friden No. 2,229,889 granted January 28, 1941.

By rotation of the gears IE: or I], the shaft I4 is turned an amount determined by the positioning of the selector gears caused by depression of a selected one of the keys 26, 21 or other similar. numeral keys, notshown.

At such time as the shaft 14 is turned, the

shifter bar or gate 36 moves add-subtract gears 38, 31, forward or rearward, sothat one or the other meshes, as shown inFig. 10, with the addsubtract register gear or pinion 40 on the lower end of accumulator shaft 42 which has on its upper end the accumulator dial 44. When the plus key is depressed the shifter 36 is moved rearwardly i. e., toward the rear of the machine as viewed by the operator using the machine, the gear 38 engages the gear 40, and the shaft 42 is turned counter-clockwise and the numbers on dial 44 advance in the usual progression (namely, 1, 2, 3, 4, etc.). The opposite occurs when the shifter is drawn forwardly (toward the front of the machine) through the depression of. the ,subtract key (not shown).

Accumulator shaft 42 has a partially-toothed pinionv 45 which is positioned to be engaged by rack 41 of. a resetting mechanism, as illustrated in Fig. 9,. carried by the re-set rack bar 48 that is. moved laterally in the machine. For manual movement of rack 48, the re-set handle 49 is employed.

It will be understood that the showing of Fig. 1. is intended. to be, typical, since it willbe obvious that a plurality of selecting keys, such as 26-, 21, is associated with each of the selecting arms andthat there is aplurality of gear shafts as m and also a plurality of actuator drums. For the purpose of illustrating my invention I have. shownthe means.v actuated in a single denominational order of selector elements, together withthe mechanism for transferring the value shown, on the accumulator dials afteryacalculation back into the selecting. arms. and selector gears whenthe accumulator dials are being re-setto zero and the machine madeready for a further calculation. This last operation'carries out an important object of my inventionwhich is theresetting of the selector elements. to a position dictated by a predetermined total arrived at. in the machine through its normal operation, and without requiring the operator to visually and manually reset the keys and selecting arms. in. the normal way.

On shaft. l4 near its forward end- I mount the bevel gear 50. to turn with the shaft. Adjacent this driving gear 50 is a normally disengaged driven-bevel gear 52 which is mounted on transverse shaft 54. Bracket 56 mounted onsupport and guide bar l2 carries the shaft 54 and the mechanism thereon. Gear52- moves into andout of engagement with gear 50 by sliding movement on shaft 54.

Each of the selecting arms-2ll-2l has an offset rack' or pinion follower portion as 58 60,, carried from selecting arms 20-2-1, respectively, by suitable arms 62. A mutilated pinion or segment 6| is integral with the gear 52, and a mutilated pinion or segment is resiliently connected to themutilated pinion or segment 6! in-a. manner described hereinafter. Normally the parts 59- and BI are disengaged from the respectively associated racks 58 and 6.0:; but they maybe moved into respective engagement with the racks to act as means for transmitting drive from the gear 52 to the racks and consequently to the setting arms 20 and 2|.

In Fig. 2, wherein parts of this gear and pinion assembly are shown in exploded View, gear 52; is rigidly secured to pinion El and hasv a hollow hub- 62 with its groove 64 extending therefrom toward bracket 56. A spiral or coil spring. 66* is secured axially to hub 62 and-its outer end -is coupled by pin 68- to pinion 59. A shifter fork 10 on arm 12 is fitted to groove 64 andis resiliently coupled to hub 62 by means of the; spiral or coil spring 14', as shown in Fig. 11. Arm "I2 is movable in one direction-to mesh gears 5B-and 52- and is returned in the opposite direction to its normal position by spring 15.

For manual shifting of gear 52, I employ key 16, as in Figs. 1 and 4, which carries cross pin 18 thatengages the bell-crank lever 80 coupled to arm 12. As long as key 16 is depressed, as shown in Fig. 4, the gears will be engaged and rotation of shaft I4 will result in movement of selecting arms 2|), 2|, through the medium of the pinions 59 and BI and the racks 58 and 69, independently of keys 26, 21. Such movement will accomplish the positioning of the selector gears I5, [1, as previously described.

Pressure upon key 15 also produces forward movement of draw-link 82, as indicated in Fig. 6, through the action of pin 18 on the sloping edge of notch 83 formed in the draw link. This movement is translated into forward movement of shifter bar 36 to which draw-link 82 is coupled and results in the meshing of gear 31 with the add-subtract pinion 4U.

. A swinging latch bar 90 pivotally mounted on suitable supports 9| overlies teeth or notches 92, 93, of selecting arms 20, 2|. Bar 90 is normally held out of engagement with these notches by tongue 94 of the latching link 96, which also has a cam notch 98 that is engaged by ,pin 18 when key 16 is depressed. Movement of the link 95 to the right, as shown in Fig. 7, against the pull'of spring 91 withdraws tongue 94 from under bar 90, which is pulled down by spring 91 Thus,

'when the selecting arms are moving forwardly and the notches 92, 93, move under bar so, the

latter serves as a dog to maintain them where set until released.

Release of the selecting arms is obtained by lifting the latch bar 90 therefrom through the action of the keyboard clearing-gate (not shown) which is a reciprocal mechanism. I provide horn I99 on an arm of bar 90 and connect the horn by link I02 to the keyboard clearing-gate which, when it operates to release the keys, causes bar 90 to be raised. Thereupon tongue 94 is re-disposed under bar 90 to maintain its elevated inoperative position.

Method of operation The operation of this invention is intended to occur after an operator has conducted a calculation in the machine with the end result or value being displayed on the series of accumulator dials of which dial 44 is typical. Normally, following such an operation, when it is desired to clear the machine, the operator shifts the rack bar 48 to the right in Fig. 1 and the teeth 41, engage the partial pinions 46 of the various accumulator shafts rotating them until the blank portions of the partial pinions 45 are all disposed toward the rack bar. At that time all the accumulator dials will have been returned or re-set to zero. It is the rotation of these various accumulator shafts that I employ in mechanically transposing a setting back into the selector arms andgears. To do so, it -is necessary to re-engage the accumulator pinion 40 with the subtract gear of the add-subtract gears carried by shiftable bar 36. I accomplish this meshing of gears 31 and 40 by imparting a draft on link 82 pin" to act upon cam surface 83. Thus it will be seen that when the accumulator shaft 42 is rotated or partially turned, the spline shaft I4 is proportionally turned clockwise (Figure 1) in itsbearings in frame members l0 and I2.

In order to employ rotation of the spline shaft through depressing key 16 and causing" pression of key H for the purpose of rotating the partial pinions 59 and GI, the clutch means comprising the toothed members 59 and 52 must be engaged. Since take-off member 52 is slidable on pin 54, shifting motion of member 52 toward and away from gear 59 is obtained by the shifter 12 which is simultaneously actuated with movement of the link 82 upon depression of key 15. In other words, pin 18 acts upon bell-crank B9 and causes shifter 12 to move to the left in Fig. 1, producing engagement of gears 52 and 50. Simultaneously with shifting of the bevel gear 52 to engage the bevel gear 50, the partial pinions 59 and GI are shifted axially so as to be moved respectively into the planes of movement of the racks 58 and 60. Thereafter, when the pinions 59 and BI are rotated they will move the respective racks 58 and 69 forwardly by amounts dependent upon the extent of rotation of the shaft I 4 resulting from returnin of the associated dial 44 to zero position.

First, rack 58 is thus moved to move selector arm 20 step-by-step through setting representing numerals l, 2, 3, 4, and 5. When the latter point is reached, forward movement of the arm 20 is stopped by conventional limit means, not shown, and pinion 59 stops moving the rack 58. The teeth of partial pinion 61 then begin to engage rack on selector arm 2| and to move it step by step through settings representing numerals 6, 7, 8, and 9. During such latter movement, pinion 59 is motionless due to the functioning of the torsional coupling through spring 66 between pinions 59 and BI. Shifting of the selector arms as described above, first the arm 29 and then, with delayed action, the arm 2!, effects sequential movement of the selector gears relative to the teeth of actuator drum 30.

In order to maintain such positions of the selector arms and gears, the latch 99 comes into action with teeth 92 and 93 on the selector arms. Latch bar is dropped due to the withdrawal of the tongue 94 from underneath, caused by de- 16 and the action of pin 18 on cam surface 98.

With the selector gears set as described, the operator may introduce another factor, such as a multiplier, and set the machine in operation in the usual, way. The first action of the keyboard clearing gate during such an operation will result in a lifting of the latch bar 9|! from the selector arm notches and permit release of the selector arms for return to their normal settings.

Although I have shown and described particular embodiments of my invention, it will occur to those skilled in the art that various changes and modifications may be made without departing from the invention.

Having thus described my invention, I claim:

1. In a calculating machine of the type wherein there are pairs of movable selector arms each coupled to a selector gear that is slidably mounted on a spline shaft so that when the selector arms are moved the gears are moved longitudinally of said spline shaft and positioned relative to a vari-toothed actuator which operates to rotate said shaft and a' pair of normally disengaged add-subtract gears thereon, one of which is then meshed with an accumulator pinion to rotate an accumulator shaft and an acof a rack and pinion assembly. a mechanism for transferrin hank a. mm and.

of a previous calculation appearing on said accumulator dial, comprising: means for meshing the accumulator pinion with the subtract gear of said add-subtract gears; a take-off member adjacent said spline shaft; clutch means for drivingly connecting together said spline shaft and said take-01f member; said clutch .means comprising relatively engageable toothed clutching members; .a first pinion rigidly connected to the toothed clutching member of said take-oil member; a second pinion torsionally connected to said 'first pinion; each of said selector arms having a rack associated therewith and engageable by one of said pinions; and means for biasing :one of said clutching members for shift toward and away from the other thereby to respectively control engagement and disengagement of said-clutch means.

'2. In a calculating machine of the type wherein there-are pairs of movabl selector arms each coupled to a selector gear that is slidabl-y mounted on 'a spline shaft so that when the selectorarms are ,moved the gears are moved longitudinally of said. spline-shaft and positioned relative to a varitoothed actuator which operates to rotate said shaft and a pair of normally disengaged addsubtract gears thereon, one of which is then meshed with an accumulator pinion to rotate an accumulator shaft and an accumulator dial thereon,- which accumulator shaft is returnable to zero through the functioning of a re-setting mechanism, a mechanism for transferring back to said selector arms a value standing in them:- cumulator dial as a result of a previous calculation, comprising: means for meshing the accumulator pinion with the subtract gear of said add-subtract gears; a take-off member adjacent said spline shaft; Optionally engageable means for drivingly connecting together said spline shaft and said take-off member; a, first pinion rigidly connected to said take-off member; a second pinion torsionally connected to said first pinion; each of said selector arms having a rack associated therewith and engageable by one of said pinions; and means for controlling engagement and disengagement of said optionally engageable means.

3. A calculating mechanism including, for each of a plurality of denominational orders, differential actuator means; a register gear; means including reversing gearing for transmitting value entering drive from said actuator means to said register gear; means for setting said actuator means differentially according to the value to be entered in said register gear; registration sign control means for selectively adjusting said reversing gearing for additive or subtractive sign character registration; means for re-setting said register gear to zero position; and means for transferring a value registered by the position of said register gear back to said setting means comprising: shiftable drive means interposed between saidreversing gearing and said setting means and normally being operatively disconnected from both said reversing gearing and said setting means; means for shifting said drive means to effect connection thereof to both said reversing gearing and said sett ng means whereby to move said setting means proportionately to rotary movement of said reversing gearing; means for operating said sign control means to adjust said reversing, gearing for a particular sign character registration; a control device; means responsive to operation, of said control device for operating said shifting means to effect connection of said drive means to both said reversing gearing andsaid settingmeans; and means also responsive to operation :ofzsazidcontrol device for actuating isaid sign control operating means, whereby, whenrsaid control device hasibeen actuated, re-setting of :said register gear to zer position'wi-ll act'through said reversing gearing and said :drive means to position the setting means correspondingly to the valuelregistered by the position .of said register gear prior to the re-setting movement thereof.

A. Aacalculating mechanism including, for each of a plurality of denominational orders,.a'r.otary differential actuator; selector :gear means; imeans for-setting said selector gear means differentially with respect to said actuator; a register gear; drive 'means including :reversing gearing operatively connecting said selector :gear means with said register gear; registration Sign control means for-selectively adjusting said reversing gearing f or additive or subtractive sign character registration; means for re-setting said register gear to 'zero position;- and :means for transferring a value registered 'bythe'p'osi'tion of said register gear baclr to the selector gear setting means comprising: ;shiftable drive means interposed be tween said, reversing lgearing and said setting means and normally being operatively disconnected from both said :reversing gearing and said setting means; means for shifting said drive means to'eff'ect connection thereof to both :said reversing gearing and said setting means whereby to move said setting means proportionately ;to rotary movement-of s aid reversing gearing; means for opera-ting said sign control means to adjust said reversing gearing for a particular signcharaster registration; a control device; means res onsive to operation of said control device for operating said shifting means to effect connection of said drive means to both said reversing gearing and said setting means; and means also responsive to operation 01 said control device for actuating said sign control operating means, whereby, whensaid control device has been actuated, r e-setting of said :register gear to zero position will act through .said reversing gearing and said drive means to position the setting means correspondingly to the value registered by the position of said register gear prior to the re-setting movement thereof.

5. A calculating mechanism including, for each of a plurality of denominational orders, a rotary differential actuator; selector gear means; means for setting :said selector gear means differentially with respect to said actuator; aregister ear; drive means including reversing gearing operatively connectin said selector gear means with said register'gear; registration sign control means for selectively adjusting said reversing gearing for additive or subtractive sign character registration; means for re-setting said register gear to zero position; and means for transferring a value registered by the position of said register gear back to the selector gear setting means comprising: :adriving gear rotatable by said reversing gearing; va drivable gear; means formaintaining said driving gear and said drivable gear normally disengaged but being operable for engaging them; normally disengaged transmitting meansadapted to be engaged for operatively connecting said drivable gear to said setting .means whereby upon engagement of said driving gear and said drivable gear, engagement of said transmitting means, and rotationof said drivabl gear, said setting means will be moved proportionately t rotary movement of said reversing gearing;

'meansfor operating said sign control means to adjust said reversing gearing for a particular sign character registration; a control device; means responsive to operation of said control device for effecting engagement of said driving gear and said drivable gear and engagement of said transmitting means; and means also responsive to operation of said control device for actuating said sign control operating means, whereby, when said control device has been actuated, re-setting of said register gear to zero position will act through said reversin gearing, said driving gear, said drivable gear, and said transmitting means to position the setting means correspondingly to the value registered by the position of said register gear prior to the re-setting movement thereof.

6. A calculating mechanism including, for each of a plurality of denominational orders, a rotary differential actuator; selector gear means; means 'for setting said selector gear means differentially with respect to said actuator; a register gear; drive means including reversing gearing operatively connecting said selector gear means with said register gear; registration sign control means for selectively adjusting said reversing gearing for additive or subtractive sign character registration; means for re-setting said register gear to zero position; and means for transferring a value registered by the position of said register gear back to the selector gear setting means comhavin a sloping edge; a depressible key; and a 'pin on said key operable upon depression of the key for rocking said leverand engaging said link sloping edge to operate said link, whereby, when said key has been depressed, 're-setting of said register gear to zero position will act through said reversing gearing, said driving gear, and said drivable gear to position the setting means correspondingly to the value'registered by the position of said register gear prior to the re-setting movement thereof.

'7. A calculating mechanism including, for each of a plurality of denominational orders, a rotary differential actuator; selector gear means; means for setting said selector gear means differentially with respect to said actuator; a register gear; drive means including reversing gearing operatively connecting said selector gear means with said register gear; registration sign control means for selectively adjusting said reversing gearing for additive or subtractive sign character re istration; means for re-setting said register gear to zero position; and means for transferring a value registered by the position of said register gear back to the selector gear setting means comprising: normally disengaged but optionally engageable drive means interposed between said reversing gearing and said setting means and operative, when engaged, for moving said setting means proportionately to rotary movement of said reversing gearing; means for operating said sign control means to adjust said reversing gearing for a particular sign character registration; a

control device; means responsive to operation of said control device for effecting engagement of said drive means; means also responsive to oper ation of said control device for actuating said sign control operating means, whereby, when said control device has beenactuated, re-setting of said register gear to zero position will act through said reversing gearing and said drive means to position the setting means correspondingly to the value registered by the position of said register gear prior to the re-setting movement thereof; a ratchet device normally disengaged from said setting means; and means operable under control of said control device for effecting engagement of said ratchet device with said setting means when said drive means is engaged in consequence of said control device being in actuated position, whereby said setting means will be held in the position-to which it is set by re-setting of the register.

8. A calculating machine including, for each of a plurality of denominational orders, a shaft; a register gear; means including reversing gearing for transmitting valueientering driv from said shaft to said register gear; a diiferential actuator; selecting means including a first selector device for driving said shaft and being adjustable relatively to said actuator to engage it and be driven thereby differentially according to the'adjustment of said device, and a second selector "device for driving said shaft and being adjustable relatively to said actuator to engage it and be driven thereby differentially according to the adjustment of said second device; and means responsive to re-setting of said register gear t zero position with said reversing gearing set for negative registration for adjusting said selecting means correspondingly to the value registered by said register gear prior to the re-setting operation comprising reverse drive take-off means, optionally engageable means for drivingly connecting said take-ofi' means to said shaft, a yieldable driving connection between said first selector device and said take-off means, a delayed action driving connection between said second selector .device and said take-off means, and mean for controlling engagement and disengagement; of

said optionally engageable means.

' 9. A calculating machine including, for each of a plurality of denominational orders, a shaft; a register gear; means including reversing gearing for transmittin value entering drive from-said shaft .to said register gear; a diiferentialfactu ator; selecting means including a first selector.

device for driving said shaft and being adjustable relatively to said actuator to engage it and be driven thereby differentially according to the adjustment of said device, and a second selector device for driving said shaft and being adjustable relatively to said actuator to engage it and be driven thereby differentially according to the adjustment of said second device; and means responsive to resetting of said register gear to zero position with said reversing gearing set for negative registration for adjusting said selecting means correspondingly to the value registered by said register gear prior to the re-setting operation comprising a rotatable reverse drive take-off member, optionally engageable means for driv ingly connecting said take-off member to said shaft, a first pinion drivable by said take-off member, a first pinion follower drivable by said first pinion and being connected to said first selector device, a second and mutilated pinion drivable by said take-oif member, a second pinion rfollower drivable by said second pinion and beingiconnected to said second selector device, the teeth on said second pinion being so positioned as to engage said second pinion follower with a delayed action after operation of said first follower by said first pinion, whereby operation of said take-off member effects sequential differential adjustment of said selector devices, and means for controlling engagement and disengagement of said optionally engageable means.

10. A calculating mechanism including, for each of a plurality of denominational orders, a rotary differential actuator; selector gear means; means for setting said selector gear means differentially with respect to said actuator; a register gear; drive means includingreversing gearing operatively connecting said selector gear means with said register gear; registration Sign control means for selectively adjusting said reversing gearing for additive or subtractive sign engagement of said drive means; means also re' sponsive to operation of said control device for actuating said sign control operatin means,

whereby, when said control device has been actu- V ated, re-setting of said register gear'to zero position will act through said reversing gearing and said drive means to position the setting means correspondingly to the value registered by the position of said register gear prior to the re-setting movement thereof; ratchet teeth on said setting means; a spring-urged latch cooperable with said ratchet teeth; a member normally holding said latch disengaged from said ratchet teeth against the urge of the latch spring; and means operable by said controldevice for disabling said holding member to enable said latch to engage said ratchet teeth so as to cooperate therewith in holding said setting means the position .to which it is moved by re-setting of the register.

11. A calculating mechanism including, for :each of :a plurality of denominational nrders, a rotatable 'vari-toothed actuator, :a spline :shaft, two :selectorl-gears slidably mounted on said :shaft .to be movable longitudinally thereof for being drivingly engaged differentially by said actuator, selector arms coupled respectively with said selector gearsfor moving'them individually along said shaft, an accumulator pinion, an accumulator dial drivable by said pinion, a pair of addsubtract gears :drivable by said shaft and being selectively engageable with said accumulator pinion, and meansfor'setting'said accumulator pin- .ion to zero position; .in combination withiamechanism for transferring back to said selector arms a result of a previous'calculation appearing on said accumulator dial, comprising: means for meshing the accumulator pinion "with the subtract gear of said add-subtract gears; a take-off shaft adjacentsaid spline shaft; a pair ,of normally disengaged bevel gears for operatively-connecting said spline shaft to said take-01f shaft; means for :engaging said [bevel gears; a single manually operable key for operating said pinion and subtract gear meshing means and for engaging said bevel gears; and rack and pinion means bperatively connecting said take-oil sha'ft'tosaid selector arms to'm'ove 'said arms so that the sum of the respective movements thereof is proportional to the rotation of the spline shaft during re-setti'ng of the accumulator dial to "zero? 12. Mechanism'as set forth in claim '11 including latch means for retaining said selector arm's in the positions to which they are moved'bysaid rack and pinionmeans.

CLINTON P. KARL-R.

REFERENCES CITED The following references are of .record in the file of this patent: v

UNITED STATES PA'I ENEIS 

